Research Keyword: hyphosphere

Low spatial mobility of associated microbes along the hyphae limits organic nitrogen utilization in the arbuscular mycorrhizal hyphosphere

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This research examines how fungi and bacteria work together to help plants get nitrogen from organic matter in soil. The study found that fungal networks cannot effectively transport bacteria to distant nutrient sources. Instead, bacteria and fungi must be close to organic materials like chitin to successfully break them down and make nitrogen available to plants.

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Exploring Fungal Communication Mechanisms in the Rhizosphere Microbiome for a Sustainable Green Agriculture

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Fungi in soil communicate with each other and plants through chemical signals, forming protective layers called biofilms that help them cooperate and survive. These fungal communication networks can be either beneficial, helping plants grow and fight diseases, or harmful, causing crop infections and producing toxins. By better understanding how fungi talk to each other, scientists can develop natural ways to improve agriculture and clean up polluted soils without using harmful chemicals.

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An improved method for extraction of soil fungal mycelium

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Scientists developed an improved method to extract fungal threads (mycelium) from soil samples, which is important because fungi play key roles in nutrient cycling and carbon storage in forests. The new method is faster, cheaper, and simpler than previous approaches, reducing processing time significantly while avoiding chemicals that could interfere with DNA analysis. This allows researchers to better study which fungi live in soil and what roles they play in forest ecosystems.

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